Suppression of HopZ Effector-Triggered Plant Immunity in a Natural Pathosystem

Dissecting virulence function from recognition: cell death suppression in Nicotiana benthamiana by XopQ/HopQ1-family effectors relies on EDS1-dependent immunity

(2017) Norman Adlung et al.   PLANT JOURNAL

A bacterial acetyltransferase triggers immunity in Arabidopsis thaliana independent of hypersensitive response

(2017) Jay Jayaraman et al.   Scientific Reports

Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host

(2016) José S. Rufián et al.   ENVIRONMENTAL MICROBIOLOGY

Differential modulation of plant immune responses by diverse members of the Pseudomonas savastanoi pv. savastanoi HopAF type III effector family

(2016) M. Pilar Castañeda-Ojeda et al.   MOLECULAR PLANT PATHOLOGY

Pseudomonas syringaetype III effector HopAF1 suppresses plant immunity by targeting methionine recycling to block ethylene induction

(2016) Erica J. Washington et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Molecular mechanisms underlying the emergence of bacterial pathogens: an ecological perspective

(2015) Claudia Bartoli et al.   MOLECULAR PLANT PATHOLOGY

Two serine residues inPseudomonas syringaeeffector HopZ1a are required for acetyltransferase activity and association with the host co-factor

(2015) Ka-Wai Ma et al.   NEW PHYTOLOGIST

Acetylation of an NB-LRR Plant Immune-Effector Complex Suppresses Immunity

(2015) Jiyoung Lee et al.   Cell Reports

Auto-acetylation on K289 is not essential for HopZ1a-mediated plant defense suppression

(2015) José S. Rufián et al.   Frontiers in Microbiology

HopZ4 from Pseudomonas syringae, a Member of the HopZ Type III Effector Family from the YopJ Superfamily, Inhibits the Proteasome in Plants

(2014) Suayib Üstün et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

Immunomodulation by the Pseudomonas syringae HopZ Type III Effector Family in Arabidopsis

(2014) Jennifer D. Lewis et al.   PLoS One

The HopQ1 Effector’s Nucleoside Hydrolase-Like Domain Is Required for Bacterial Virulence in Arabidopsis and Tomato, but Not Host Recognition in Tobacco

(2013) Wei Li et al.   PLoS One

The Arabidopsis ZED1 pseudokinase is required for ZAR1-mediated immunity induced by the Pseudomonas syringae type III effector HopZ1a

(2013) J. D. Lewis et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Bacterial Effector Activates Jasmonate Signaling by Directly Targeting JAZ Transcriptional Repressors

(2013) Shushu Jiang et al.   PLoS Pathogens

Disruption of PAMP-Induced MAP Kinase Cascade by a Pseudomonas syringae Effector Activates Plant Immunity Mediated by the NB-LRR Protein SUMM2

(2012) Zhibin Zhang et al.   Cell Host & Microbe

Type III Secretion and Effectors Shape the Survival and Growth Pattern of Pseudomonas syringae on Leaf Surfaces

(2012) J. Lee et al.   PLANT PHYSIOLOGY

A Bacterial Acetyltransferase Destroys Plant Microtubule Networks and Blocks Secretion

(2012) Amy Huei-Yi Lee et al.   PLoS Pathogens

Pseudomonas syringae Type III Effector HopZ1 Targets a Host Enzyme to Suppress Isoflavone Biosynthesis and Promote Infection in Soybean

(2011) Huanbin Zhou et al.   Cell Host & Microbe

Dynamic Evolution of Pathogenicity Revealed by Sequencing and Comparative Genomics of 19 Pseudomonas syringae Isolates

(2011) David A. Baltrus et al.   PLoS Pathogens

Pseudomonas syringae Effector Protein AvrB Perturbs Arabidopsis Hormone Signaling by Activating MAP Kinase 4

(2010) Haitao Cui et al.   Cell Host & Microbe

BAK1 Is Not a Target of the Pseudomonas syringae Effector AvrPto

(2010) Tingting Xiang et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

The Pseudomonas syringae effector protein HopZ1a suppresses effector-triggered immunity

(2010) Alberto P. Macho et al.   NEW PHYTOLOGIST

Suppression of the AvrBs1-specific hypersensitive response by the YopJ effector homolog AvrBsT from Xanthomonas depends on a SNF1-related kinase

(2010) Robert Szczesny et al.   NEW PHYTOLOGIST

Allele-Specific Virulence Attenuation of the Pseudomonas syringae HopZ1a Type III Effector via the Arabidopsis ZAR1 Resistance Protein

(2010) Jennifer D. Lewis et al.   PLoS Genetics

Identification of new type III effectors and analysis of the plant response by competitive index

(2009) ALBERTO P. MACHO et al.   MOLECULAR PLANT PATHOLOGY

Allelic Variants of thePseudomonas syringaeType III Effector HopZ1 Are Differentially Recognized by Plant Resistance Systems

(2009) Huanbin Zhou et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

The Majority of the Type III Effector Inventory ofPseudomonas syringaepv.tomatoDC3000 Can Suppress Plant Immunity

(2009) Ming Guo et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

Deletions in the Repertoire of Pseudomonas syringae pv. tomato DC3000 Type III Secretion Effector Genes Reveal Functional Overlap among Effectors

(2009) Brian H. Kvitko et al.   PLoS Pathogens

Bacterial Effectors Target the Common Signaling Partner BAK1 to Disrupt Multiple MAMP Receptor-Signaling Complexes and Impede Plant Immunity

(2008) Libo Shan et al.   Cell Host & Microbe

Pseudomonas syringae Effector AvrPto Blocks Innate Immunity by Targeting Receptor Kinases

(2008) Tingting Xiang et al.   CURRENT BIOLOGY

The HopZ Family of Pseudomonas syringae Type III Effectors Require Myristoylation for Virulence and Avirulence Functions in Arabidopsis thaliana

(2008) J. D. Lewis et al.   JOURNAL OF BACTERIOLOGY